High-speed addressable confocal microscopy for functional imaging of cellular activity

Due to cellular complexity, studying fast signaling in neurons is often limited by: 1. the number of sites that can be simultaneously probed with conventional tools, such as patch pipettes, and 2. the recording speed of imaging tools, such as confocal or multiphoton microscopy. To overcome these spatiotemporal limitations, we develop an addressable confocal microscope that permits concurrent optical recordings from multiple user-selected sites of interest at high frame rates. Our system utilizes acousto-optic deflectors (AODs) for rapid positioning of a focused laser beam and a digital micromirror device (DMD) for addressable spatial filtering to achieve confocality. A registration algorithm synchronizes the AODs and DMD such that point illumination and point detection are always colocalized in conjugate image planes. The current system has an adjustable spatial resolution of similar to 0.5 to 1 mu m. Furthermore, we show that recordings can be made at an aggregate frame rate of similar to 40 kHz. The system is capable of optical sectioning; this property is used to create 3-D reconstructions of fluorescently labeled test specimens and visualize neurons in brain slices. Additionally, we use the system to record intracellular calcium transients at several sites in hippocampal neurons using the fluorescent calcium indicator Oregon Green BAPTA-1. (c) 2006 Society of Photo-Optical Instrumentation Engineers.